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/*
* TOP2049 Open Source programming suite
*
* Cypress M8C In System Serial Programmer
* FPGA bottomhalf implementation
*
* Copyright (c) 2010 Michael Buesch <mb@bu3sch.de>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
module m8c_issp(data, ale, write, read, osc_in, zif);
inout [7:0] data;
input ale;
input write;
input read;
input osc_in; /* 12MHz oscillator */
inout [48:1] zif;
/* Interface to the microcontroller */
wire read_oe; /* Read output-enable */
reg [7:0] address; /* Cached address value */
reg [7:0] read_data; /* Cached read data */
wire low, high; /* Constant lo/hi */
/* The M8C programmer context */
`define ISSP_VEC_SIZE 22 /* bits */
reg [1:0] issp_busy; /* Busy state. We're busy, if bits are unequal */
reg [7:0] issp_command; /* Currently loaded command */
reg [`ISSP_VEC_SIZE-1:0] issp_vector; /* Currently loaded output vector */
reg [`ISSP_VEC_SIZE-1:0] issp_input_mask; /* Vector input bits mask */
reg [`ISSP_VEC_SIZE-1:0] issp_input_vector; /* Read data */
reg [5:0] issp_vecbit; /* Currently TXed/RXed bit */
reg [7:0] issp_count; /* General purpose counter */
reg [3:0] issp_state; /* Statemachine */
/* The M8C programmer commands */
`define ISSPCMD_NONE 0 /* No command loaded */
`define ISSPCMD_POR 1 /* Perform a power-on-reset */
`define ISSPCMD_PWROFF 2 /* Turn power off */
`define ISSPCMD_SENDVEC 3 /* Send the vector */
`define ISSPCMD_EXEC 4 /* Do an "execute" transfer */
/* The M8C device signals */
reg dut_sdata;
reg dut_sdata_input;
reg dut_sclk;
reg dut_sclk_z;
reg dut_vdd;
`define VDD_ON 0
`define VDD_OFF 1
`define ZIF_SDATA 22 /* SDATA ZIF pin */
assign low = 0;
assign high = 1;
initial begin
issp_busy <= 0;
issp_command <= 0;
issp_vector <= 0;
issp_vecbit <= `ISSP_VEC_SIZE;
issp_state <= 0;
dut_sdata <= 0;
dut_sdata_input <= 1;
dut_sclk <= 0;
dut_sclk_z <= 1;
dut_vdd <= `VDD_OFF;
read_data <= 0;
end
/* The delay counter. Based on the 12MHz input clock. */
reg [15:0] delay_count;
wire osc;
IBUF osc_ibuf(.I(osc_in), .O(osc));
always @(posedge osc) begin
if (delay_count == 0) begin
if (issp_busy[0] != issp_busy[1]) begin
/* busy0 != busy1 indicates that a command is running.
* Continue executing it... */
if (issp_command == `ISSPCMD_POR) begin
case (issp_state)
0: begin
/* Turn on power and wait vDDwait time */
dut_vdd <= `VDD_ON;
dut_sclk_z <= 1;
dut_sclk <= 0;
dut_sdata_input <= 1;
// delay_count <= 24000 - 1; /* Wait 1ms */
delay_count <= 12000 - 1;
// delay_count <= 5000 - 1;
issp_state <= 1;
end
1: begin
if (zif[`ZIF_SDATA] == 1) begin
issp_state <= 2;
delay_count <= 6 - 1; /* Wait 250ns */
end
end
2: begin
if (zif[`ZIF_SDATA] == 0) begin
issp_state <= 3;
dut_sclk_z <= 0;
dut_sclk <= 0;
delay_count <= 6 - 1; /* Wait 250ns */
end
end
3: begin
if (issp_vecbit == 0) begin
dut_sdata_input <= 1;
issp_state <= 5;
end else begin
/* Ok, ready to send the next bit */
dut_sclk_z <= 0;
dut_sdata_input <= 0;
dut_sdata <= issp_vector[issp_vecbit - 1];
dut_sclk <= 1;
issp_state <= 4;
delay_count <= 6 - 1; /* Wait 250ns */
end
end
4: begin
dut_sclk <= 0;
issp_state <= 3;
issp_vecbit <= issp_vecbit - 1;
delay_count <= 6 - 1; /* Wait 250ns */
end
5: begin
/* We're done. */
issp_busy[1] <= issp_busy[0];
issp_vecbit <= `ISSP_VEC_SIZE;
issp_state <= 0;
end
endcase
end
if (issp_command == `ISSPCMD_PWROFF) begin
dut_vdd <= `VDD_OFF;
dut_sdata_input <= 1;
dut_sclk_z <= 1;
/* We're done. */
issp_busy[1] <= issp_busy[0];
end
if (issp_command == `ISSPCMD_SENDVEC) begin
case (issp_state)
0: begin
dut_sclk_z <= 0;
if (issp_input_mask[issp_vecbit - 1] == 0) begin
/* Send bit */
dut_sdata_input <= 0;
dut_sdata <= issp_vector[issp_vecbit - 1];
end
dut_sclk <= 1;
issp_state <= 1;
delay_count <= 6 - 1; /* Wait 250ns */
end
1: begin
if (issp_input_mask[issp_vecbit - 1] != 0) begin
/* Receive bit */
//FIXME?
dut_sdata_input <= 1;
issp_input_vector[issp_vecbit - 1] = zif[`ZIF_SDATA];
end
dut_sclk <= 0;
issp_state <= 2;
delay_count <= 6 - 1; /* Wait 250ns */
end
2: begin//FIXME?
if (issp_vecbit == 0) begin
/* We're done. */
dut_sdata_input <= 1;
issp_busy[1] <= issp_busy[0];
issp_vecbit <= `ISSP_VEC_SIZE;
issp_state <= 0;
end else begin
/* The next bit */
issp_vecbit <= issp_vecbit - 1;
issp_state <= 0;
end
end
endcase
end
if (issp_command == `ISSPCMD_EXEC) begin
case (issp_state)
0: begin /* Init */
dut_sdata_input <= 1;
dut_sdata <= 0;
dut_sclk_z <= 0;
issp_count <= 40;
issp_state <= 1;
delay_count <= 6 - 1; /* Wait 250ns */
end
1: begin /* Wait 40 cycles, set clk=hi */
dut_sclk <= 1;
issp_state <= 2;
issp_count <= issp_count - 1;
delay_count <= 6 - 1; /* Wait 250ns */
end
2: begin /* Wait 40 cycles, set clk=lo */
dut_sclk <= 0;
if (issp_count == 0)
issp_state <= 3;
else
issp_state <= 1;
delay_count <= 6 - 1; /* Wait 250ns */
end
3: begin /* Wait for SDATA=0, set clk=hi */
dut_sclk <= 1;
dut_sdata_input <= 1;
dut_sdata <= 0;
if (zif[`ZIF_SDATA] == 0) begin
/* Ok, got it. Now send 40 zeros. */
issp_count <= 39;
issp_state <= 5;
end else begin
issp_state <= 4;
end
delay_count <= 6 - 1; /* Wait 250ns */
end
4: begin /* Wait for SDATA=0, set clk=lo */
dut_sclk <= 0;
issp_state <= 3;
delay_count <= 6 - 1; /* Wait 250ns */
end
5: begin /* Send 40 zeros. set clk=lo */
dut_sdata_input <= 0;
dut_sclk <= 0;
if (issp_count == 0)
issp_state <= 7;
else
issp_state <= 6;
delay_count <= 6 - 1; /* Wait 250ns */
end
6: begin /* Send 40 zeros. set clk=hi */
dut_sclk <= 1;
issp_count <= issp_count - 1;
issp_state <= 5;
delay_count <= 6 - 1; /* Wait 250ns */
end
7: begin /* finish */
/* We're done. */
issp_busy[1] <= issp_busy[0];
dut_sdata_input <= 1;
issp_state <= 0;
end
endcase
end
end
end else begin
delay_count <= delay_count - 1;
end
end
always @(posedge write) begin
case (address)
8'h10: begin
/* Data write */
/* Unused */
end
8'h12: begin
/* Load and execute command */
issp_command <= data;
issp_busy[0] <= ~issp_busy[1];
end
8'h13: begin
/* Load vector low */
issp_vector[7:0] <= data;
end
8'h14: begin
/* Load vector med */
issp_vector[15:8] <= data;
end
8'h15: begin
/* Load vector high */
issp_vector[21:16] <= data[5:0];
end
8'h16: begin
/* Load input mask low */
issp_input_mask[7:0] <= data;
end
8'h17: begin
/* Load input mask med */
issp_input_mask[15:8] <= data;
end
8'h18: begin
/* Load input mask high */
issp_input_mask[21:16] <= data[5:0];
end
endcase
end
always @(negedge read) begin
case (address)
8'h10: begin
/* Data read */
/* Unused */
end
8'h12: begin
/* Read status */
read_data[0] <= (issp_busy[0] != issp_busy[1]);
end
8'h13: begin
/* Read input vector low */
read_data <= issp_input_vector[7:0];
end
8'h14: begin
/* Read input vector med */
read_data <= issp_input_vector[15:8];
end
8'h15: begin
/* Read input vector high */
read_data <= issp_input_vector[21:16];
end
8'h16: begin
/* Raw ZIF pin read access */
read_data <= zif[8:1];
end
8'h17: begin
/* Raw ZIF pin read access */
read_data <= zif[16:9];
end
8'h18: begin
/* Raw ZIF pin read access */
read_data <= zif[24:17];
end
8'h19: begin
/* Raw ZIF pin read access */
read_data <= zif[32:25];
end
8'h1A: begin
/* Raw ZIF pin read access */
read_data <= zif[40:33];
end
8'h1B: begin
/* Raw ZIF pin read access */
read_data <= zif[48:41];
end
endcase
end
always @(negedge ale) begin
address <= data;
end
assign read_oe = !read && address[4];
bufif0(zif[1], low, low);
bufif0(zif[2], low, low);
bufif0(zif[3], low, low);
bufif0(zif[4], low, low);
bufif0(zif[5], low, low);
bufif0(zif[6], low, low);
bufif0(zif[7], low, low);
bufif0(zif[8], low, low);
bufif0(zif[9], low, low);
bufif0(zif[10], low, low);
bufif0(zif[11], low, low);
bufif0(zif[12], low, low);
bufif0(zif[13], low, low);
bufif0(zif[14], low, low);
bufif0(zif[15], low, low);
bufif0(zif[16], low, low);
bufif0(zif[17], low, low);
bufif0(zif[18], low, low);
bufif0(zif[19], low, low);
assign zif[20] = low; /* GND */
assign zif[21] = high; /* VDD */
bufif0(zif[`ZIF_SDATA], dut_sdata, dut_sdata_input); /* SDATA */
bufif0(zif[23], dut_sclk, dut_sclk_z); /* SCLK */
bufif0(zif[24], dut_vdd, low); /* VDDen */
bufif0(zif[25], low, low);
bufif0(zif[26], low, low);
bufif0(zif[27], low, low);
bufif0(zif[28], low, low);
bufif0(zif[29], low, low);
bufif0(zif[30], low, low);
bufif0(zif[31], low, low);
bufif0(zif[32], low, low);
bufif0(zif[33], low, low);
bufif0(zif[34], low, low);
bufif0(zif[35], low, low);
bufif0(zif[36], low, low);
bufif0(zif[37], low, low);
bufif0(zif[38], low, low);
bufif0(zif[39], low, low);
bufif0(zif[40], low, low);
bufif0(zif[41], low, low);
bufif0(zif[42], low, low);
bufif0(zif[43], low, low);
bufif0(zif[44], low, low);
bufif0(zif[45], low, low);
bufif0(zif[46], low, low);
bufif0(zif[47], low, low);
bufif0(zif[48], low, low);
bufif1(data[0], read_data[0], read_oe);
bufif1(data[1], read_data[1], read_oe);
bufif1(data[2], read_data[2], read_oe);
bufif1(data[3], read_data[3], read_oe);
bufif1(data[4], read_data[4], read_oe);
bufif1(data[5], read_data[5], read_oe);
bufif1(data[6], read_data[6], read_oe);
bufif1(data[7], read_data[7], read_oe);
endmodule
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